# Nido Formation

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Geological formation in British Columbia, Canada

Nido Formation Stratigraphic range: Neogene 4.4 Ma PreꞒ Ꞓ O S D C P T J K Pg N Kaia Bluff in the lower-left corner consists of alkali basalt of the Nido Formation Type Geological formation[1] Unit of Mount Edziza volcanic complex[2] Sub-units Kounugu Member, Tenchen Member[2] Underlies Spectrum Formation, Arctic Lake Formation, Pyramid Formation, Ice Peak Formation, Edziza Formation, Pillow Ridge Formation, Big Raven Formation, Kakiddi Formation[2][3] Overlies Raspberry Formation, Armadillo Formation, Little Iskut Formation[4][5] Thickness Up to 365 m (1,198 ft)[6] Lithology Primary Alkali basalt[2] Other Hawaiite, picrite[2] Location Coordinates 57°38′15″N 130°36′10″W / 57.63750°N 130.60278°W / 57.63750; -130.60278[7][a] Region British Columbia[1] Country Canada[1] Type section Named for Nido Creek[8] Named by Souther et al., 1984[1]

The **Nido Formation** is a [stratigraphic unit](/source/Stratigraphic_unit) of [Neogene](/source/Neogene) age in northwestern [British Columbia](/source/British_Columbia), Canada. It is the second most voluminous of 13 [geological formations](/source/Geological_formation) comprising the [Mount Edziza volcanic complex](/source/Mount_Edziza_volcanic_complex) (MEVC), which consists of [volcanic rocks](/source/Volcanic_rock) of late [Cenozoic](/source/Cenozoic) age. Underlying the Nido Formation are the [Raspberry](/source/Raspberry_Formation), [Little Iskut](/source/Little_Iskut_Formation) and [Armadillo](/source/Armadillo_Formation) formations of the MEVC, which have average ages ranging from 7.4 to 6.3 million years old. The overlying Spectrum, [Pyramid](/source/Pyramid_Formation_(British_Columbia)), [Ice Peak](/source/Ice_Peak_Formation), Pillow Ridge, [Edziza](/source/Edziza_Formation), Arctic Lake and [Big Raven](/source/Big_Raven_Formation) formations, also part of the MEVC, were deposited in the last 3.5 million years. [Radiometric dating](/source/Radiometric_dating) of the Nido Formation has yielded ages ranging from 7.8 to 4.4 million years old, but an average age of 4.4 million years has been provided for it.

The Nido Formation is subdivided into two [members](/source/Member_(geology)), each of which is separated by an area of higher terrain. To the north, the [Tenchen Member](/source/Tenchen_Member) is exposed in valleys cutting the eastern and western sides of the [Big Raven Plateau](/source/Big_Raven_Plateau). The Kounugu Member to the south is exposed around the periphery of the [Spectrum Range](/source/Spectrum_Range) at the southern end of the MEVC. Both members consist mainly of [alkali basalt](/source/Alkali_basalt); [hawaiite](/source/Hawaiite) and [picrite](/source/Picrite) occur locally at higher elevations. These volcanic rocks were deposited by at least six major and several smaller eruptive centres that were active during the [second magmatic cycle](/source/Volcanism_of_the_Mount_Edziza_volcanic_complex#Second_magmatic_cycle) of the MEVC. The eruptive centres, which are considered to have been [shield volcanoes](/source/Shield_volcano), have since been deeply eroded.

## History and etymology

The Nido Formation was first defined by [Jack Souther](/source/Jack_Souther), [Richard Lee Armstrong](/source/Richard_Lee_Armstrong) and J. Harakal in 1984 who grouped it together with the Kounugu Formation in their descriptions and mapping.[1][9] It was mapped as one of 15 [geological formations](/source/Geological_formation) of the [Mount Edziza volcanic complex](/source/Mount_Edziza_volcanic_complex) (MEVC), a group of late [Cenozoic](/source/Cenozoic) [volcanic rocks](/source/Volcanic_rock) in northwestern [British Columbia](/source/British_Columbia), Canada.[10][11] In 1988, Jack Souther remapped the MEVC into 13 geological formations; the Kounugu and [Sheep Track](/source/Sheep_Track_Member) formations were reassigned as [members](/source/Member_(geology)) of the Nido and [Big Raven](/source/Big_Raven_Formation) formations, respectively.[2] The Kounugu and Sheep Track members are no longer recognized as formations since that rank for them has been abandoned.[12][13]

The Nido Formation is named after [Nido Creek](/source/Nido_Creek), whose name was adopted 2 January 1980 on the [National Topographic System](/source/National_Topographic_System) map 104G/9 after having been submitted by the [Geological Survey of Canada](/source/Geological_Survey_of_Canada).[8][14] *Nido* means 'white man' in the [Tahltan language](/source/Tahltan_language).[14] It is a reference to white men who staked [mineral claims](/source/Mineral_claim) in the area of the creek before [Mount Edziza Provincial Park](/source/Mount_Edziza_Provincial_Park) was established in 1972.[14][15][16]

## Stratigraphy

[Stratigraphically](/source/Stratigraphically), the Nido Formation is subdivided into two units referred to as the Kounugu and [Tenchen](/source/Tenchen_Member) members. They are separated by the Armadillo Highlands and are not completely underlain by a single [marker horizon](/source/Marker_horizon).[17] South of the Armadillo Highlands, the Kounugu Member is exposed around the periphery of the [Spectrum Range](/source/Spectrum_Range) at the southern end of the MEVC.[18] The Tenchen Member north of the Armadillo Highlands is exposed in steep-walled valleys cutting the eastern and western sides of the [Big Raven Plateau](/source/Big_Raven_Plateau) at the northern end of the MEVC.[2][17]

The Nido Formation has a volume of 127 cubic kilometres (30 cubic miles), making it the second most voluminous of the MEVC after the [Armadillo Formation](/source/Armadillo_Formation). It is also one of five geological formations of the volcanic complex that contains more than 70 km3 (17 mi3) of volcanic material.[19] The Nido Formation is the most widespread geological formation of the MEVC over an area about 20 km (12 mi) wide and 50 km (31 mi) long.[20] It contains at least 40 [lava flow](/source/Lava_flow) units and reaches a thickness of 365 metres (1,198 feet) in the Kounugu Member.[21][22]

### Overlying units

A [geological map](/source/Geological_map) of the [Big Raven Plateau](/source/Big_Raven_Plateau) north of the Armadillo Highlands

The Nido Formation is overlain by seven younger geological formations of the MEVC.[2][3] The oldest is the 3.1-million-year-old Spectrum Formation, which consists mainly of [rhyolite](/source/Rhyolite) and [trachyte](/source/Trachyte) forming the Spectrum Range.[2][23] To the north, the Nido Formation is overlain by the 1.1-million-year-old [Pyramid Formation](/source/Pyramid_Formation_(British_Columbia)) on [ridges](/source/Ridge) along the deeply [dissected](/source/Volcano#Dissection) eastern flank of [Mount Edziza](/source/Mount_Edziza).[2][24] It consists mainly of rhyolite and trachyte, although [basalt](/source/Basalt) overlies a [pyroclastic surge](/source/Pyroclastic_surge) deposit at the base of the formation.[25] The approximately 1-million-year-old [Ice Peak Formation](/source/Ice_Peak_Formation) overlies much of the Nido Formation on the Big Raven Plateau.[2][26] Consisting of [alkali basalt](/source/Alkali_basalt), [hawaiite](/source/Hawaiite), [mugearite](/source/Mugearite), [benmoreite](/source/Benmoreite) and trachyte, it is the most [petrographically](/source/Petrographically) complex formation of the MEVC.[19][27]

In the middle of the Big Raven Plateau, the Nido Formation is overlain by the 0.9-million-year-old Pillow Ridge and [Edziza](/source/Edziza_Formation) formations.[2][5][28][29] The Pillow Ridge Formation is limited to the [Pillow](/source/Pillow_Ridge) and [Tsekone](/source/Tsekone_Ridge) ridges, which consist of alkali basalt and hawaiite, respectively.[2][30] In contrast, the dominantly trachytic Edziza Formation forms the central stratovolcano of Mount Edziza.[30][31] The 0.71-million-year-old Arctic Lake Formation overlies the Nido Formation on the [Arctic Lake Plateau](/source/Arctic_Lake_Plateau) at the southern end of the MEVC.[2][32] It consists mainly of alkali basalt that issued from at least seven separate eruptive centres on or adjacent to the plateau.[33] Exposures of the 0.3-million-year-old trachytic [Kakiddi Formation](/source/Kakiddi_Formation) occur on the eastern and southwestern flanks of [Ice Peak](/source/Ice_Peak). The less than 20,000-year-old [Big Raven Formation](/source/Big_Raven_Formation) overlies Nido [strata](/source/Strata) comprising the Big Raven and [Kitsu](/source/Kitsu_Plateau) plateaus.[2][19] It consists mainly of alkali basalt and hawaiite, although it also includes a small volume of [comenditic](/source/Comenditic) trachyte [pumice](/source/Pumice) on the Big Raven Plateau.[2][34]

### Underlying units

The extent of the Nido Formation south of the Armadillo Highlands

Underlying the Nido Formation are three other geological formations of the MEVC.[2][35] Basalt, comendite and trachyte of the 6.3-million-year-old Armadillo Formation are exposed under the Nido Formation in strata of the Big Raven and [Kitsu](/source/Kitsu_Plateau) plateaus.[2][19] Because only the distal portions of the Kounugu Member overlap with the southern edge of the Armadillo Formation, it is possible that both [stratigraphic units](/source/Stratigraphic_unit) are coeval in age. However, it also does not rule out the possibility that the Kounugu Member is older than the Armadillo Formation.[22] [Trachybasalt](/source/Trachybasalt) of the 7.2-million-year-old [Little Iskut Formation](/source/Little_Iskut_Formation) underlies the Nido Formation in strata of the [Artifact](/source/Artifact_Ridge) and [Obsidian](/source/Obsidian_Ridge) ridges south of the Armadillo Highlands.[2][36] Also exposed under the Nido Formation in strata of the Big Raven and Kitsu plateaus is basalt of the 7.4-million-year-old [Raspberry Formation](/source/Raspberry_Formation).[2][19]

In the canyon of [Elwyn Creek](/source/Elwyn_Creek) at the northwestern end of the Big Raven Plateau, the Nido Formation is underlain by [leucogranite](/source/Leucogranite) of the [Elwyn Creek Pluton](/source/Elwyn_Creek#Geology).[2][37] This 5 km (3.1 mi) wide [pluton](/source/Pluton) is of [Eocene](/source/Eocene) age and is part of the Sloko Group, which formed in a [continental arc](/source/Continental_arc) setting as early as the [Late Cretaceous](/source/Late_Cretaceous).[2][38][39] Peripheral to the Elwyn Creek Pluton is gently tilted [sedimentary](/source/Sedimentary_rock) strata of the [Sustut Group](/source/Sustut_Group).[38] This [geological group](/source/Geological_group) consists of [siltstone](/source/Siltstone), [sandstone](/source/Sandstone), [shale](/source/Shale), [arkose](/source/Arkose), [conglomerate](/source/Conglomerate_(geology)) and minor [coal](/source/Coal) that was deposited during the [Cretaceous](/source/Cretaceous) and [Paleocene](/source/Paleocene).[2] The formation is also underlain by [Paleozoic](/source/Paleozoic) and [Mesozoic](/source/Mesozoic) sedimentary, volcanic or [metamorphic](/source/Metamorphic_rock) rocks of the [Stikinia terrane](/source/Stikinia_terrane), which [accreted](/source/Accretion_(geology)) to the [continental margin](/source/Continental_margin) of North America during the [Jurassic](/source/Jurassic).[2][40][41]

## Volcanology

See also: [Volcanism of the Mount Edziza volcanic complex](/source/Volcanism_of_the_Mount_Edziza_volcanic_complex)

The Nido Formation was deposited by at least six major and several smaller eruptive centres during the [second magmatic cycle](/source/Volcanism_of_the_Mount_Edziza_volcanic_complex#Second_magmatic_cycle) of the MEVC between 6 and 1 million years ago.[42] Individual eruptive centres are widely separated and formed along the eastern edge of the volcanic complex, mainly in a north–south trending zone.[43] All of them are the products of a long period of volcanic activity and are now deeply eroded; the remains are considered to be of [shield volcanoes](/source/Shield_volcano).[22][44] The precise sequence of eruptions that formed the Nido Formation remains unknown. However, the geological record suggests that Nido volcanism was characterized by the eruption of highly mobile, fluid lava flows. The lava flowed over lag gravels and outwash from the Armadillo Highlands and created several [lava-dammed lakes](/source/Lava-dammed_lake) where the drainage patterns of streams were disrupted.[44] [Glacial deposits](/source/Glacial_deposit) under the Kounugu and Tenchen members contain [clasts](/source/Clast) from the Armadillo Highlands, suggesting that both units formed more or less simultaneously.[17]

As a part of the MEVC, the Nido Formation lies within a broad area of volcanoes called the [Northern Cordilleran Volcanic Province](/source/Northern_Cordilleran_Volcanic_Province), which extends from northwestern British Columbia northwards through [Yukon](/source/Yukon) into easternmost [Alaska](/source/Alaska).[2][45] The dominant rocks comprising these volcanoes are alkali basalts and hawaiites, but [nephelinite](/source/Nephelinite), [basanite](/source/Basanite) and [peralkaline](/source/Peralkaline_rock)[b] [phonolite](/source/Phonolite), trachyte and comendite are locally abundant. These rocks were deposited by volcanic eruptions from 20 million years ago to as recently as a few hundred years ago. Volcanism in the Northern Cordilleran Volcanic Province is thought to be due to [rifting](/source/Rift) of the [North American Cordillera](/source/North_American_Cordillera), driven by changes in relative [plate motion](/source/Plate_tectonics) between the [North American](/source/North_American_Plate) and [Pacific](/source/Pacific_Plate) plates.[47]

### Tenchen Member

Main article: [Tenchen Member](/source/Tenchen_Member)

Paleogeological map of the Nido Formation at the end of the [Nido eruptive period](/source/Volcanism_of_the_Mount_Edziza_volcanic_complex#Nido_eruptive_period)

At least three major eruptive centres of the Tenchen Member, referred to as the Alpha, Beta and Gamma peaks, flooded an area of more than 350 km2 (140 mi2) with lava flows to create a [lava field](/source/Lava_field).[17] The northernmost and oldest major eruptive centre, Alpha Peak, is considered to have been adjacent to [The Pyramid](/source/The_Pyramid_(British_Columbia)) of the younger Pyramid Formation partially due to the distribution of Nido [tephra](/source/Tephra) in that area.[48] Cliffs containing 50 to 60% coarse tephra occur along the southern side of [Pyramid Creek](/source/Pyramid_Creek_(Kakiddi_Creek_tributary)), but the actual vent and conduit system of this eruptive centre remains unexposed. Bright red [spindle](/source/Volcanic_bomb#Bomb_types) and [cow pie bombs](/source/Cow_pie_bomb) up to 0.6 m (2.0 ft) wide occur in the tephra. Lava flows [interlayered](/source/Interbedding) in the tephra contain rough hackly surfaces and are randomly [jointed](/source/Joint_(geology)) and highly [vesicular](/source/Vesicular_texture).[17] The Alpha shield was at times nearly surrounded by northward-flowing [outlet glaciers](/source/Outlet_glacier) of an [ice cap](/source/Ice_cap) that covered the Armadillo Highlands.[49]

About 12 km (7.5 mi) to the south, Beta Peak began to form during the late stages of Alpha volcanism when several vents issued thin, coalescing lava flows.[50] Remnants of this small shield volcano are exposed on the eastern flank of Mount Edziza between the [Tenchen](/source/Tenchen_Creek) and [Sorcery](/source/Sorcery_Creek) creeks where flat-lying, [columnar-jointed](/source/Columnar_jointing) lava flows form prominent step-like [outcrops](/source/Outcrop).[51] Lava flows of the Beta shield on [Sorcery Ridge](/source/Sorcery_Ridge) are overlain by tephra believed to be the remains of a [pyroclastic cone](/source/Pyroclastic_cone).[2][51] It consists of bombs and [blocks](/source/Volcanic_block) that are enclosed by loosely agglutinated [spatter](/source/Volcanic_spatter) and [lapilli](/source/Lapilli).[51] At its climax, the pyroclastic cone rose at least 365 m (1,198 ft) above the surrounding surface of the Beta shield.[50]

Gamma Peak, the southernmost and second oldest major eruptive centre, began to form with the eruption of thin lava flows from a vent at the western end of [Cartoona Ridge](/source/Cartoona_Ridge).[52] These lava flows overlie [ash](/source/Volcanic_ash) of the Armadillo Formation and travelled along the northern side of the Armadillo Highlands as far west as the [Mess Creek Escarpment](/source/Mess_Creek_Escarpment) where they are exposed.[53] Later, the northward-flowing outlet glaciers originating from the Armadillo Highlands eventually covered the Gamma shield. [Subglacial volcanism](/source/Subglacial_eruption) under these glaciers formed a meltwater lake above the Gamma shield, whose surface was penetrated by [explosions](/source/Explosive_eruption) resulting from lava-water interactions.[49] After the ice had receded, a fragile pile of [tuff breccia](/source/Tuff_breccia) formed by the earlier [subaqueous](https://en.wiktionary.org/wiki/subaqueous) activity was buried under [subaerial](/source/Subaerial) lava up to 90 m (300 ft) thick from renewed eruptions. Thin lava flows more than 6.5 km (4.0 mi) long spread to the west.[54] Eroded remnants of the Gamma shield include Kaia Bluff and [Cartoona Peak](/source/Cartoona_Peak).[55]

### Kounugu Member

The Kounugu Member issued from at least four eruptive centres, all of which have been deeply eroded or extensively buried under younger rocks.[56] Swarm Peak formed on the older Little Iskut Formation shield volcano as [magma](/source/Magma) intruded through swarms of north-trending fractures in the underlying [basement](/source/Basement_(geology)). Lava from Swarm Peak flowed over [gravel bars](/source/Gravel_bar) and [alluvial fans](/source/Alluvial_fan) just south of the Armadillo Highlands after descending the southern and western slopes of the Little Iskut shield.[54] Exposed in cliffs along [Raspberry Pass](/source/Raspberry_Pass), the [Little Iskut River](/source/Little_Iskut_River) and the [Artifact](/source/Artifact_Creek) and [Mess](/source/Mess_Creek) creeks are lava flows believed to have originated from Swarm Peak. Nearly all of the southern edge of the Swarm Peak edifice is buried under lava flows and [domes](/source/Lava_dome) of the younger Spectrum Range.[57]

Geological [cross section](/source/Cross_section_(geology)) of [Exile Hill](/source/Exile_Hill)

Most of the lava flows from the Vanished Peak eruptive centre travelled to the north and west.[54] They are exposed adjacent to the southeastern margin of the Spectrum Range where they reach thicknesses of up to 365 m (1,198 ft). Lava flows ranging from 6-to-15 m (20-to-49 ft) thick form prominent cliffs at the base of the Spectrum Range where they contain well-formed columnar joints. Interbedding these lava flows are 0.5-to-1.5 m-thick (1.6-to-4.9 ft) layers of [scoria](/source/Scoria), which is in the form of cinders and blocks. Vanished Peak was most likely active during a period of glacial recession because there is a lack of evidence for lava-water interaction. About 12 m (39 ft) of [pillow lava](/source/Pillow_lava) and [palagonite](/source/Palagonite) tuff breccia at the extreme southeastern base of the volcanic pile is the only evidence for lava having interacted with water. Jack Souther proposed that the pillow lava and palagonite tuff breccia formed when lava entered a lake.[6]

Lost Peak is a subaerial and subaqueous dome of [pyroclastic rocks](/source/Pyroclastic_rock) near the Spectrum Range that rises to a prominent pyramid-shaped cone.[58] The western flank consists of a more than 300 m (980 ft) thick sequence of waterlain tuff breccia, pillow lava and quenched lava toes.[59] These volcanic deposits probably formed when lava ponded against a thick lobe of glacial ice that advanced from the [Coast Mountains](/source/Coast_Mountains) onto the surrounding plateau.[60] In contrast, the volcanic deposits forming the eastern flank do not show evidence of having interacted with water. They consist mainly of thin lava flows that are interbedded with layers of thick scoria. Underlying the Lost Peak rocks are lava flows that issued from the Vanished Peak eruptive centre, as well as a thick layer of coarse gravel that was deposited by streams.[6]

[Exile Hill](/source/Exile_Hill) is the remains of a small pyroclastic cone that formed at the northern end of the [Arctic Lake Plateau](/source/Arctic_Lake_Plateau).[16][61] It was almost completely inundated by younger lava flows from the south and east, but thick deposits of bombs and agglutinated spatter are exposed on the southeastern flank.[61] A series of lava flows up to 180 m (590 ft) thick, believed to have originated from a vent adjacent to Exile Hill, are exposed in isolated [buttes](/source/Butte) and in cliffs along the upper Mess Creek valley. The lowermost lava flow forming the base of Exile Hill is more than 30 m (98 ft) thick whereas the uppermost rubbly lava flows are only a few metres in thickness. Characterizing the lowermost lava flows are long, curving columns that occur in sheath-like clusters. In contrast, the upper lava flows contain random, blocky columnar jointing or stout, spheroidally weathered columns.[60] These lava flows are overlain by a thick layer of gravel that consists mainly of pebbles and [cobblestones](/source/Cobble_(geology)). Overlying the gravel is a roughly 100 m (330 ft) thick series of Spectrum Formation flows capping the summit of Exile Hill.[62]

## Lithology

Depiction of the [total alkali-silica diagram](/source/Total_alkali-silica_diagram) with field outlines and labels. [Alkali basalt](/source/Alkali_basalt) is generally located in region B whereas [hawaiite](/source/Hawaiite) and [picrite](/source/Picrite) are located in regions S1 and Pc, respectively.

The Nido Formation resembles the Raspberry Formation both [mineralogically](/source/Mineralogically) and [geomorphologically](/source/Geomorphologically).[22] It is remarkably uniform in composition despite having been issued from several separate eruptive centres over a long period.[63] Alkali basalt is the most widely distributed volcanic rock, occurring in both the Tenchen and Kounugu members.[2] Its [lithology](/source/Lithology) ranges from [aphyric](https://en.wiktionary.org/wiki/aphyric) to slightly [phyric](/source/Phyric); [phenocrysts](/source/Phenocryst) consist of [feldspar](/source/Feldspar) and [pyroxene](/source/Pyroxene).[22] It predominates the lower portions of the Nido Formation and exhibits a great variety of depositional forms.[2][22] These include subaerial lava flows and subaqueous pillow lava, sideromelane tuff breccia and ice-contact [facies](/source/Facies).[2]

[Picrite](/source/Picrite) and hawaiite occur locally in the uppermost part of the Nido Formation and represent minor [porphyritic](/source/Porphyritic) phases of Nido volcanism.[22][64] Both rocks are also present in the Tenchen and Kounugu members, the latter of which contains phenocrysts of feldspar.[2][22][65] The presence of hawaitte suggests that some alkali basalt underwent partial [crystal fractionation](/source/Crystal_fractionation) and feldspar accumulation in subterranean [magma chambers](/source/Magma_chamber) prior to eruption.[66] Picrite is limited to the Vanished Peak and Gamma Peak eruptive centres where it forms lava flows in the upper parts of both edifices.[67]

Essential mineral constituents in the Nido Formation include [salite](/source/Diopside), [olivine](/source/Olivine), [plagioclase](/source/Plagioclase) and [ilmenite](/source/Ilmenite). Phenocrysts composed of plagioclase are the most common; they are normally in the form of 2-to-5-millimetre-long (0.079-to-0.197-inch) tabular laths. The laths are usually [euhedral](/source/Euhedral) and complexly twinned, rarely comprising more than 5% of Nido alkali basalt. Hawaiite containing up to 50% plagioclase phenocrysts forms the upper lava flows of the Beta Peak eruptive centre. Olivine and [clinopyroxene](/source/Clinopyroxene) phenocrysts are the second and third most common phenocrysts, respectively. Phenocrysts composed of [opaque](/source/Opaque) oxides are rare.[60]

## Age

At least four [potassium–argon dates](/source/Potassium%E2%80%93argon_date) have been obtained from samples of the Nido Formation.[22][68] The two youngest dates, 4.4 ± 0.5 million years and 4.5 ± 0.3 million years, are from the Tenchen Member.[17][69] Analytical precision of these two dates gives an average age of 4.4 million years.[69] This age places the Tenchen Member in the [Pliocene](/source/Pliocene) and has also been used as the average age of the Nido Formation.[19][2] The third youngest date, 5.5 ± 1.6 million years, is also from the Tenchen Member but it has a large error.[17][69] As a result, this date may be anomalously old. Rocks with high atmospheric [argon](/source/Argon) content, such as the sample this date was obtained from, are susceptible of producing erroneous ages. The average age of the Tenchen Member increases only to 4.5 million years if the third youngest date is included.[22]

The oldest date of 7.8 ± 0.3 million years is from a thick section of Kounugu Member basalt southeast of the Spectrum Range.[68][69] If this date is correct, it suggests that the overall age of the Kounugu Member may span those of the Raspberry and Armadillo formations.[22] It also suggests that Nido volcanism began during the [Miocene](/source/Miocene) rather than the Pliocene, both of which are epochs of the [Neogene](/source/Neogene) period.[2][70] The location where the oldest date was obtained is beyond the southern extent of the Armadillo Formation where the Kounugu Member overlies [Mesozoic](/source/Mesozoic) or [Paleozoic](/source/Paleozoic) basement.[2][22]

## Notes

1. **[^](#cite_ref-8)** Kaia Bluff consists of alkali basalt of the Nido Formation.[2]

1. **[^](#cite_ref-48)** *Peralkaline rocks* are magmatic rocks that have a higher ratio of sodium and potassium to aluminum.[46]

## References

1. ^ [***a***](#cite_ref-FOOTNOTEGovernment_of_Canada:_Nido_Formation_1-0) [***b***](#cite_ref-FOOTNOTEGovernment_of_Canada:_Nido_Formation_1-1) [***c***](#cite_ref-FOOTNOTEGovernment_of_Canada:_Nido_Formation_1-2) [***d***](#cite_ref-FOOTNOTEGovernment_of_Canada:_Nido_Formation_1-3) [***e***](#cite_ref-FOOTNOTEGovernment_of_Canada:_Nido_Formation_1-4) [Government of Canada: Nido Formation](#CITEREFGovernment_of_Canada:_Nido_Formation).

1. ^ [***a***](#cite_ref-FOOTNOTESouther1988_2-0) [***b***](#cite_ref-FOOTNOTESouther1988_2-1) [***c***](#cite_ref-FOOTNOTESouther1988_2-2) [***d***](#cite_ref-FOOTNOTESouther1988_2-3) [***e***](#cite_ref-FOOTNOTESouther1988_2-4) [***f***](#cite_ref-FOOTNOTESouther1988_2-5) [***g***](#cite_ref-FOOTNOTESouther1988_2-6) [***h***](#cite_ref-FOOTNOTESouther1988_2-7) [***i***](#cite_ref-FOOTNOTESouther1988_2-8) [***j***](#cite_ref-FOOTNOTESouther1988_2-9) [***k***](#cite_ref-FOOTNOTESouther1988_2-10) [***l***](#cite_ref-FOOTNOTESouther1988_2-11) [***m***](#cite_ref-FOOTNOTESouther1988_2-12) [***n***](#cite_ref-FOOTNOTESouther1988_2-13) [***o***](#cite_ref-FOOTNOTESouther1988_2-14) [***p***](#cite_ref-FOOTNOTESouther1988_2-15) [***q***](#cite_ref-FOOTNOTESouther1988_2-16) [***r***](#cite_ref-FOOTNOTESouther1988_2-17) [***s***](#cite_ref-FOOTNOTESouther1988_2-18) [***t***](#cite_ref-FOOTNOTESouther1988_2-19) [***u***](#cite_ref-FOOTNOTESouther1988_2-20) [***v***](#cite_ref-FOOTNOTESouther1988_2-21) [***w***](#cite_ref-FOOTNOTESouther1988_2-22) [***x***](#cite_ref-FOOTNOTESouther1988_2-23) [***y***](#cite_ref-FOOTNOTESouther1988_2-24) [***z***](#cite_ref-FOOTNOTESouther1988_2-25) [***aa***](#cite_ref-FOOTNOTESouther1988_2-26) [***ab***](#cite_ref-FOOTNOTESouther1988_2-27) [***ac***](#cite_ref-FOOTNOTESouther1988_2-28) [***ad***](#cite_ref-FOOTNOTESouther1988_2-29) [***ae***](#cite_ref-FOOTNOTESouther1988_2-30) [***af***](#cite_ref-FOOTNOTESouther1988_2-31) [***ag***](#cite_ref-FOOTNOTESouther1988_2-32) [***ah***](#cite_ref-FOOTNOTESouther1988_2-33) [Souther 1988](#CITEREFSouther1988).

1. ^ [***a***](#cite_ref-FOOTNOTESouther199293,_98,_100,_246_3-0) [***b***](#cite_ref-FOOTNOTESouther199293,_98,_100,_246_3-1) [Souther 1992](#CITEREFSouther1992), pp. 93, 98, 100, 246.

1. **[^](#cite_ref-FOOTNOTESouther199283,_100,_246_4-0)** [Souther 1992](#CITEREFSouther1992), pp. 83, 100, 246.

1. ^ [***a***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984340_5-0) [***b***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984340_5-1) [Souther, Armstrong & Harakal 1984](#CITEREFSoutherArmstrongHarakal1984), p. 340.

1. ^ [***a***](#cite_ref-FOOTNOTESouther1992106_6-0) [***b***](#cite_ref-FOOTNOTESouther1992106_6-1) [***c***](#cite_ref-FOOTNOTESouther1992106_6-2) [Souther 1992](#CITEREFSouther1992), p. 106.

1. **[^](#cite_ref-FOOTNOTEBC_Geographical_Names:_Kaia_Bluff_7-0)** [BC Geographical Names: Kaia Bluff](#CITEREFBC_Geographical_Names:_Kaia_Bluff).

1. ^ [***a***](#cite_ref-FOOTNOTESouther199295_9-0) [***b***](#cite_ref-FOOTNOTESouther199295_9-1) [Souther 1992](#CITEREFSouther1992), p. 95.

1. **[^](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984339_10-0)** [Souther, Armstrong & Harakal 1984](#CITEREFSoutherArmstrongHarakal1984), p. 339.

1. **[^](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984337,_339_11-0)** [Souther, Armstrong & Harakal 1984](#CITEREFSoutherArmstrongHarakal1984), pp. 337, 339.

1. **[^](#cite_ref-FOOTNOTEEdwards19973_12-0)** [Edwards 1997](#CITEREFEdwards1997), p. 3.

1. **[^](#cite_ref-FOOTNOTEGovernment_of_Canada:_Kounugu_Formation_13-0)** [Government of Canada: Kounugu Formation](#CITEREFGovernment_of_Canada:_Kounugu_Formation).

1. **[^](#cite_ref-FOOTNOTEGovernment_of_Canada:_Sheep_Track_Formation_14-0)** [Government of Canada: Sheep Track Formation](#CITEREFGovernment_of_Canada:_Sheep_Track_Formation).

1. ^ [***a***](#cite_ref-FOOTNOTEBC_Geographical_Names:_Nido_Creek_15-0) [***b***](#cite_ref-FOOTNOTEBC_Geographical_Names:_Nido_Creek_15-1) [***c***](#cite_ref-FOOTNOTEBC_Geographical_Names:_Nido_Creek_15-2) [BC Geographical Names: Nido Creek](#CITEREFBC_Geographical_Names:_Nido_Creek).

1. **[^](#cite_ref-FOOTNOTEBC_Parks:_Mount_Edziza_Provincial_Park_16-0)** [BC Parks: Mount Edziza Provincial Park](#CITEREFBC_Parks:_Mount_Edziza_Provincial_Park).

1. ^ [***a***](#cite_ref-FOOTNOTEDepartment_of_Energy,_Mines_and_Resources1989_17-0) [***b***](#cite_ref-FOOTNOTEDepartment_of_Energy,_Mines_and_Resources1989_17-1) [Department of Energy, Mines and Resources 1989](#CITEREFDepartment_of_Energy,_Mines_and_Resources1989).

1. ^ [***a***](#cite_ref-FOOTNOTESouther199293_18-0) [***b***](#cite_ref-FOOTNOTESouther199293_18-1) [***c***](#cite_ref-FOOTNOTESouther199293_18-2) [***d***](#cite_ref-FOOTNOTESouther199293_18-3) [***e***](#cite_ref-FOOTNOTESouther199293_18-4) [***f***](#cite_ref-FOOTNOTESouther199293_18-5) [***g***](#cite_ref-FOOTNOTESouther199293_18-6) [Souther 1992](#CITEREFSouther1992), p. 93.

1. **[^](#cite_ref-FOOTNOTESouther199232,_93,_104_19-0)** [Souther 1992](#CITEREFSouther1992), pp. 32, 93, 104.

1. ^ [***a***](#cite_ref-FOOTNOTESouther1992267_20-0) [***b***](#cite_ref-FOOTNOTESouther1992267_20-1) [***c***](#cite_ref-FOOTNOTESouther1992267_20-2) [***d***](#cite_ref-FOOTNOTESouther1992267_20-3) [***e***](#cite_ref-FOOTNOTESouther1992267_20-4) [***f***](#cite_ref-FOOTNOTESouther1992267_20-5) [Souther 1992](#CITEREFSouther1992), p. 267.

1. **[^](#cite_ref-FOOTNOTESouther199293,_94_21-0)** [Souther 1992](#CITEREFSouther1992), pp. 93, 94.

1. **[^](#cite_ref-FOOTNOTESouther1992104–108_22-0)** [Souther 1992](#CITEREFSouther1992), pp. 104–108.

1. ^ [***a***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984344_23-0) [***b***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984344_23-1) [***c***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984344_23-2) [***d***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984344_23-3) [***e***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984344_23-4) [***f***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984344_23-5) [***g***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984344_23-6) [***h***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984344_23-7) [***i***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984344_23-8) [***j***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984344_23-9) [***k***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984344_23-10) [***l***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984344_23-11) [Souther, Armstrong & Harakal 1984](#CITEREFSoutherArmstrongHarakal1984), p. 344.

1. **[^](#cite_ref-FOOTNOTESouther1992113,_267_24-0)** [Souther 1992](#CITEREFSouther1992), pp. 113, 267.

1. **[^](#cite_ref-FOOTNOTESouther1992100,_129,_267_25-0)** [Souther 1992](#CITEREFSouther1992), pp. 100, 129, 267.

1. **[^](#cite_ref-FOOTNOTESouther1992129_26-0)** [Souther 1992](#CITEREFSouther1992), p. 129.

1. **[^](#cite_ref-FOOTNOTESouther1992100,_246,_267_27-0)** [Souther 1992](#CITEREFSouther1992), pp. 100, 246, 267.

1. **[^](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984345_28-0)** [Souther, Armstrong & Harakal 1984](#CITEREFSoutherArmstrongHarakal1984), p. 345.

1. **[^](#cite_ref-FOOTNOTESouther1992246,_267_29-0)** [Souther 1992](#CITEREFSouther1992), pp. 246, 267.

1. **[^](#cite_ref-FOOTNOTEBC_Geographical_Names:_Mount_Edziza_30-0)** [BC Geographical Names: Mount Edziza](#CITEREFBC_Geographical_Names:_Mount_Edziza).

1. ^ [***a***](#cite_ref-FOOTNOTESouther1992165_31-0) [***b***](#cite_ref-FOOTNOTESouther1992165_31-1) [Souther 1992](#CITEREFSouther1992), p. 165.

1. **[^](#cite_ref-FOOTNOTESouther1990124,_125_32-0)** [Souther 1990](#CITEREFSouther1990), pp. 124, 125.

1. **[^](#cite_ref-FOOTNOTESouther199232,_267_33-0)** [Souther 1992](#CITEREFSouther1992), pp. 32, 267.

1. **[^](#cite_ref-FOOTNOTESouther1992199,_267_34-0)** [Souther 1992](#CITEREFSouther1992), pp. 199, 267.

1. **[^](#cite_ref-FOOTNOTESouther1992213_35-0)** [Souther 1992](#CITEREFSouther1992), p. 213.

1. **[^](#cite_ref-FOOTNOTESouther1992246_36-0)** [Souther 1992](#CITEREFSouther1992), p. 246.

1. **[^](#cite_ref-FOOTNOTESouther199293,_267_37-0)** [Souther 1992](#CITEREFSouther1992), pp. 93, 267.

1. **[^](#cite_ref-FOOTNOTESouther199243,_241_38-0)** [Souther 1992](#CITEREFSouther1992), pp. 43, 241.

1. ^ [***a***](#cite_ref-FOOTNOTESouther199243_39-0) [***b***](#cite_ref-FOOTNOTESouther199243_39-1) [Souther 1992](#CITEREFSouther1992), p. 43.

1. **[^](#cite_ref-FOOTNOTELoganKoyanagi1989269_40-0)** [Logan & Koyanagi 1989](#CITEREFLoganKoyanagi1989), p. 269.

1. **[^](#cite_ref-FOOTNOTESouther199239_41-0)** [Souther 1992](#CITEREFSouther1992), p. 39.

1. **[^](#cite_ref-FOOTNOTEEdwardsRussell20001281,_1287_42-0)** [Edwards & Russell 2000](#CITEREFEdwardsRussell2000), pp. 1281, 1287.

1. **[^](#cite_ref-FOOTNOTESouther19928,_267_43-0)** [Souther 1992](#CITEREFSouther1992), pp. 8, 267.

1. **[^](#cite_ref-FOOTNOTESouther19928,_98_44-0)** [Souther 1992](#CITEREFSouther1992), pp. 8, 98.

1. ^ [***a***](#cite_ref-FOOTNOTESouther19928_45-0) [***b***](#cite_ref-FOOTNOTESouther19928_45-1) [Souther 1992](#CITEREFSouther1992), p. 8.

1. **[^](#cite_ref-FOOTNOTEEdwardsRussell20001280,_1281,_1283,_1284_46-0)** [Edwards & Russell 2000](#CITEREFEdwardsRussell2000), pp. 1280, 1281, 1283, 1284.

1. **[^](#cite_ref-FOOTNOTEMcGraw_Hill2003253_47-0)** [McGraw Hill 2003](#CITEREFMcGraw_Hill2003), p. 253.

1. **[^](#cite_ref-FOOTNOTEEdwardsRussell20001280_49-0)** [Edwards & Russell 2000](#CITEREFEdwardsRussell2000), p. 1280.

1. **[^](#cite_ref-FOOTNOTESouther19929,_93,_94,_129_50-0)** [Souther 1992](#CITEREFSouther1992), pp. 9, 93, 94, 129.

1. ^ [***a***](#cite_ref-FOOTNOTESouther199210_51-0) [***b***](#cite_ref-FOOTNOTESouther199210_51-1) [Souther 1992](#CITEREFSouther1992), p. 10.

1. ^ [***a***](#cite_ref-FOOTNOTESouther19929,_98_52-0) [***b***](#cite_ref-FOOTNOTESouther19929,_98_52-1) [Souther 1992](#CITEREFSouther1992), pp. 9, 98.

1. ^ [***a***](#cite_ref-FOOTNOTESouther199298_53-0) [***b***](#cite_ref-FOOTNOTESouther199298_53-1) [***c***](#cite_ref-FOOTNOTESouther199298_53-2) [Souther 1992](#CITEREFSouther1992), p. 98.

1. **[^](#cite_ref-FOOTNOTESouther19929,_94,_95_54-0)** [Souther 1992](#CITEREFSouther1992), pp. 9, 94, 95.

1. **[^](#cite_ref-FOOTNOTESouther19929,_101_55-0)** [Souther 1992](#CITEREFSouther1992), pp. 9, 101.

1. ^ [***a***](#cite_ref-FOOTNOTESouther199211_56-0) [***b***](#cite_ref-FOOTNOTESouther199211_56-1) [***c***](#cite_ref-FOOTNOTESouther199211_56-2) [Souther 1992](#CITEREFSouther1992), p. 11.

1. **[^](#cite_ref-FOOTNOTESouther199299,_101_57-0)** [Souther 1992](#CITEREFSouther1992), pp. 99, 101.

1. **[^](#cite_ref-FOOTNOTESouther1992104_58-0)** [Souther 1992](#CITEREFSouther1992), p. 104.

1. **[^](#cite_ref-FOOTNOTESouther1992105_59-0)** [Souther 1992](#CITEREFSouther1992), p. 105.

1. **[^](#cite_ref-FOOTNOTESouther199211,_12,_106_60-0)** [Souther 1992](#CITEREFSouther1992), pp. 11, 12, 106.

1. **[^](#cite_ref-FOOTNOTESouther199212,_106_61-0)** [Souther 1992](#CITEREFSouther1992), pp. 12, 106.

1. ^ [***a***](#cite_ref-FOOTNOTESouther1992108_62-0) [***b***](#cite_ref-FOOTNOTESouther1992108_62-1) [***c***](#cite_ref-FOOTNOTESouther1992108_62-2) [Souther 1992](#CITEREFSouther1992), p. 108.

1. ^ [***a***](#cite_ref-FOOTNOTESouther199211,_108_63-0) [***b***](#cite_ref-FOOTNOTESouther199211,_108_63-1) [Souther 1992](#CITEREFSouther1992), pp. 11, 108.

1. **[^](#cite_ref-FOOTNOTESouther1992122_64-0)** [Souther 1992](#CITEREFSouther1992), p. 122.

1. **[^](#cite_ref-FOOTNOTESouther199293,_108_65-0)** [Souther 1992](#CITEREFSouther1992), pp. 93, 108.

1. **[^](#cite_ref-FOOTNOTESouther199293,_101_66-0)** [Souther 1992](#CITEREFSouther1992), pp. 93, 101.

1. **[^](#cite_ref-FOOTNOTESouther1992101_67-0)** [Souther 1992](#CITEREFSouther1992), p. 101.

1. **[^](#cite_ref-FOOTNOTESoutherHickson198479_68-0)** [Souther & Hickson 1984](#CITEREFSoutherHickson1984), p. 79.

1. **[^](#cite_ref-FOOTNOTESouther1992101,_102,_106_69-0)** [Souther 1992](#CITEREFSouther1992), pp. 101, 102, 106.

1. ^ [***a***](#cite_ref-FOOTNOTESouther1992249_70-0) [***b***](#cite_ref-FOOTNOTESouther1992249_70-1) [Souther 1992](#CITEREFSouther1992), p. 249.

1. ^ [***a***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984341,_344_71-0) [***b***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984341,_344_71-1) [***c***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984341,_344_71-2) [***d***](#cite_ref-FOOTNOTESoutherArmstrongHarakal1984341,_344_71-3) [Souther, Armstrong & Harakal 1984](#CITEREFSoutherArmstrongHarakal1984), pp. 341, 344.

1. **[^](#cite_ref-FOOTNOTERaffi_et_al.20201142_72-0)** [Raffi et al. 2020](#CITEREFRaffi_et_al.2020), p. 1142.

### Sources

- "A 502" (Topographic map). [*Telegraph Creek, Cassiar Land District, British Columbia*](https://web.archive.org/web/20210502071600/https://volcano.si.edu/maps/GVAlaskaCanada/G910509-006.jpg) (3 ed.). 1:250,000 (in English and French). [Department of Energy, Mines and Resources](/source/Department_of_Energy%2C_Mines_and_Resources). 1989. Archived from [the original](https://volcano.si.edu/maps/GVAlaskaCanada/G910509-006.jpg) on May 2, 2021.

- *Dictionary of Geology and Mineralogy*. [McGraw Hill](/source/McGraw_Hill). 2003. [ISBN](/source/ISBN_(identifier)) [0-07-141044-9](https://en.wikipedia.org/wiki/Special:BookSources/0-07-141044-9).

- Edwards, Benjamin Ralph (1997). *Field, Kinetic, and Thermodynamic Studies of Magmatic Assimilation in the Northern Cordilleran Volcanic Province, Northwestern British Columbia* (PhD thesis). [University of British Columbia](/source/University_of_British_Columbia). [ISBN](/source/ISBN_(identifier)) [0-612-25005-9](https://en.wikipedia.org/wiki/Special:BookSources/0-612-25005-9).

- Edwards, Benjamin R.; Russell, James K. (2000). "Distribution, Nature, and Origin of Neogene–Quaternary Magmatism in the Northern Cordilleran Volcanic Province, Canada". *[Geological Society of America Bulletin](/source/Geological_Society_of_America_Bulletin)*. **112** (8). [Geological Society of America](/source/Geological_Society_of_America): 1280–1295. [Bibcode](/source/Bibcode_(identifier)):[2000GSAB..112.1280E](https://ui.adsabs.harvard.edu/abs/2000GSAB..112.1280E). [doi](/source/Doi_(identifier)):[10.1130/0016-7606(2000)112<1280:dnaoon>2.0.co;2](https://doi.org/10.1130%2F0016-7606%282000%29112%3C1280%3Adnaoon%3E2.0.co%3B2). [ISSN](/source/ISSN_(identifier)) [0016-7606](https://search.worldcat.org/issn/0016-7606).

- ["Kaia Bluff"](https://web.archive.org/web/20210930221817/https://apps.gov.bc.ca/pub/bcgnws/names/2964.html). *[BC Geographical Names](/source/BC_Geographical_Names)*. Government of British Columbia – B.C. Geographical Names Office (BCGNO). Archived from [the original](https://apps.gov.bc.ca/pub/bcgnws/names/2964.html) on September 30, 2021.

- ["Kounugu Formation"](https://web.archive.org/web/20250127044711/https://weblex.canada.ca/html/007000/GSCC00053007795.html). *[Lexicon of Canadian Geologic Units](/source/Lexicon_of_Canadian_Geologic_Units)*. [Government of Canada](/source/Government_of_Canada). Archived from [the original](https://weblex.canada.ca/html/007000/GSCC00053007795.html) on January 27, 2025.

- Logan, J. M.; Koyanagi, V. M. (1989). [Geology and Mineral Deposits of the Galore Creek Area, Northwestern B.C. (104G/3, 4)](https://web.archive.org/web/20240602092516/https://cmscontent.nrs.gov.bc.ca/geoscience/PublicationCatalogue/Paper/BCGS_P1989-01-30_Logan.pdf) (PDF). *Geological Fieldwork 1988* (Report). Paper 1989-1. [Government of British Columbia](/source/Government_of_British_Columbia). Archived from [the original](https://cmscontent.nrs.gov.bc.ca/geoscience/publicationcatalogue/Paper/BCGS_P1989-01-30_Logan.pdf) (PDF) on June 2, 2024.

- ["Mount Edziza"](https://web.archive.org/web/20180515043934/https://apps.gov.bc.ca/pub/bcgnws/names/2256.html). *[BC Geographical Names](/source/BC_Geographical_Names)*. Government of British Columbia – B.C. Geographical Names Office (BCGNO). Archived from [the original](https://apps.gov.bc.ca/pub/bcgnws/names/2256.html) on May 15, 2018.

- ["Mount Edziza Provincial Park"](https://web.archive.org/web/20230123120553/https://bcparks.ca/explore/parkpgs/mt_edziza/). [BC Parks](/source/BC_Parks). Archived from [the original](https://bcparks.ca/explore/parkpgs/mt_edziza/) on January 23, 2023.

- ["Nido Creek"](https://web.archive.org/web/20240607160320/https://apps.gov.bc.ca/pub/bcgnws/names/14307.html). *[BC Geographical Names](/source/BC_Geographical_Names)*. Government of British Columbia – B.C. Geographical Names Office (BCGNO). Archived from [the original](https://apps.gov.bc.ca/pub/bcgnws/names/14307.html) on June 7, 2024.

- ["Nido Formation"](https://web.archive.org/web/20251208143829/https://weblex.canada.ca/html/010000/GSCC00053010765.html). *[Lexicon of Canadian Geologic Units](/source/Lexicon_of_Canadian_Geologic_Units)*. [Government of Canada](/source/Government_of_Canada). Archived from [the original](https://weblex.canada.ca/html/010000/GSCC00053010765.html) on December 8, 2025.

- Raffi, I.; Wade, B. S.; Pälike, H.; Beu, A. G.; Cooper, R.; Crundwell, M. P.; Krijgsman, W.; Moore, T.; Raine, I.; Sardella, R.; Vernyhorova, Y. V. (2020). "The Neogene Period". In Gradstein, F. M.; Ogg, J. G.; Schmitz, M. D.; Ogg, G. M. (eds.). *Geologic Time Scale 2020*. Vol. 2. [Elsevier](/source/Elsevier). pp. 1141–1215. [doi](/source/Doi_(identifier)):[10.1016/B978-0-12-824360-2.00029-2](https://doi.org/10.1016%2FB978-0-12-824360-2.00029-2). [ISBN](/source/ISBN_(identifier)) [978-0-12-824360-2](https://en.wikipedia.org/wiki/Special:BookSources/978-0-12-824360-2).

- ["Sheep Track Formation"](https://web.archive.org/web/20231215003718/https://weblex.canada.ca/html/013000/GSCC00053013635.html). *[Lexicon of Canadian Geologic Units](/source/Lexicon_of_Canadian_Geologic_Units)*. [Government of Canada](/source/Government_of_Canada). Archived from [the original](https://weblex.canada.ca/html/013000/GSCC00053013635.html) on December 15, 2023.

- [Souther, J. G.](/source/Jack_Souther) (1988). "1623A" ([Geologic map](/source/Geologic_map)). *Geology, Mount Edziza Volcanic Complex, British Columbia*. 1:50,000. Cartography by M. Sigouin, [Geological Survey of Canada](/source/Geological_Survey_of_Canada). [Energy, Mines and Resources Canada](/source/Energy%2C_Mines_and_Resources_Canada). [doi](/source/Doi_(identifier)):[10.4095/133498](https://doi.org/10.4095%2F133498).

- [Souther, J. G.](/source/Jack_Souther); [Armstrong, R. L.](/source/Richard_Lee_Armstrong); Harakal, J. (1984). "Chronology of the Peralkaline, Late Cenozoic Mount Edziza Volcanic Complex, Northern British Columbia, Canada". *[Geological Society of America Bulletin](/source/Geological_Society_of_America_Bulletin)*. **95** (3). [Geological Society of America](/source/Geological_Society_of_America): 337–349. [Bibcode](/source/Bibcode_(identifier)):[1984GSAB...95..337S](https://ui.adsabs.harvard.edu/abs/1984GSAB...95..337S). [doi](/source/Doi_(identifier)):[10.1130/0016-7606(1984)95<337:COTPLC>2.0.CO;2](https://doi.org/10.1130%2F0016-7606%281984%2995%3C337%3ACOTPLC%3E2.0.CO%3B2). [ISSN](/source/ISSN_(identifier)) [0016-7606](https://search.worldcat.org/issn/0016-7606).

- [Souther, J. G.](/source/Jack_Souther); [Hickson, C. J.](/source/Catherine_Hickson) (1984). "Crystal Fractionation of the Basalt Comendite Series of the Mount Edziza Volcanic Complex, British Columbia: Major and Trace Elements". *[Journal of Volcanology and Geothermal Research](/source/Journal_of_Volcanology_and_Geothermal_Research)*. **21** (1). [Elsevier](/source/Elsevier): 79–106. [Bibcode](/source/Bibcode_(identifier)):[1984JVGR...21...79S](https://ui.adsabs.harvard.edu/abs/1984JVGR...21...79S). [doi](/source/Doi_(identifier)):[10.1016/0377-0273(84)90017-9](https://doi.org/10.1016%2F0377-0273%2884%2990017-9). [ISSN](/source/ISSN_(identifier)) [0377-0273](https://search.worldcat.org/issn/0377-0273).

- [Souther, J. G.](/source/Jack_Souther) (1992). *The Late Cenozoic Mount Edziza Volcanic Complex, British Columbia*. [Geological Survey of Canada](/source/Geological_Survey_of_Canada). [doi](/source/Doi_(identifier)):[10.4095/133497](https://doi.org/10.4095%2F133497). [ISBN](/source/ISBN_(identifier)) [0-660-14407-7](https://en.wikipedia.org/wiki/Special:BookSources/0-660-14407-7).

- [Souther, J. G.](/source/Jack_Souther) (1990). Wood, Charles A.; Kienle, Jürgen (eds.). [*Volcanoes of North America: United States and Canada*](https://books.google.com/books?id=eyDRib-FJh4C). [Cambridge University Press](/source/Cambridge_University_Press). [ISBN](/source/ISBN_(identifier)) [0-521-43811-X](https://en.wikipedia.org/wiki/Special:BookSources/0-521-43811-X).

v t e Mount Edziza volcanic complex Cinder cones The Ash Pit Cache Hill Camp Hill Cinder Cliff Cocoa Crater Coffee Crater Eve Cone Exile Hill Icefall Cone Kana Cone Keda Cone Klastline Cone Mess Lake Cone Moraine Cone Nahta Cone Outcast Hill Ridge Cone Sidas Cone Sleet Cone Source Hill Storm Cone Thaw Hill Triplex Cones Twin Cone Walkout Creek centres Williams Cone Subglacial volcanoes Pillow Ridge Tennena Cone Tsekone Ridge Wetalth Ridge Central volcanoes Armadillo Peak Mount Edziza Ice Peak Spectrum Range Lava domes Glacier Dome IGC Centre Nanook Dome Pharaoh Dome The Pyramid Sphinx Dome Triangle Dome Lava fields Desolation Lava Field Mess Lake Lava Field Snowshoe Lava Field Plateaus Arctic Lake Plateau Big Raven Plateau Kitsu Plateau Ridges Artifact Ridge Cartoona Ridge Idiji Ridge Obsidian Ridge Pillow Ridge Sorcery Ridge Tsekone Ridge Wetalth Ridge Yagi Ridge Mountain passes Destell Pass Raspberry Pass Bluffs Koosick Bluff Ornostay Bluff Glaciers Idiji Glacier Tenchen Glacier Tencho Glacier Tennaya Glacier Streams Artifact Creek Ball Creek Bourgeaux Creek Chakima Creek Crayke Creek Elwyn Creek Flyin Creek Gerlib Creek Kadeya Creek Kitsu Creek Little Iskut River More Creek Nagha Creek Nido Creek Pyramid Creek Raspberry Creek Sezill Creek Shaman Creek Sorcery Creek Stewbomb Creek Tadekho Creek Taweh Creek Tenchen Creek Tennaya Creek Tsecha Creek Walkout Creek Stratigraphic units Armadillo Formation Big Raven Formation (Sheep Track Member) Edziza Formation Ice Peak Formation Kakiddi Formation Klastline Formation Little Iskut Formation Nido Formation (Tenchen Member) Pyramid Formation Raspberry Formation Other Cartoona Peak Gnu Butte Mess Creek Escarpment Volcanism of the Mount Edziza volcanic complex

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Adapted from the Wikipedia article [Nido Formation](https://en.wikipedia.org/wiki/Nido_Formation) by Wikipedia contributors ([contributor history](https://en.wikipedia.org/wiki/Nido_Formation?action=history)). Available under [Creative Commons Attribution-ShareAlike 4.0 International](https://creativecommons.org/licenses/by-sa/4.0/). Changes may have been made.
